Self-diffusion in a lattice via the interstitialcy mechanism

Ryuichi Okamoto; Yutaka Uno; Youhei Fujitani

doi:10.1143/JPSJ.76.024603

Self-diffusion in a lattice via the interstitialcy mechanism

Ryuichi Okamoto, Yutaka Uno, Youhei Fujitani

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

We study a simple model for the interstitialcy mechanism - one of the main mechanisms of the self-diffusion in crystalline solids. The diffusion coefficient depends on the interstitialcy concentration as well as the hopping rates of particles. We obtain an approximate expressions of the diffusion coefficient for various kinds of lattices by noting that the dynamics of an interstitialcy is identical with that of a particle in the vacancy assisted mechanism. These expressions are found to be consistent with our Monte Carlo simulation results for all the lattices examined as far as the interstitialcy-concentration is not too high.

Original language	English
Article number	024603
Journal	journal of the physical society of japan
Volume	76
Issue number	2
DOIs	https://doi.org/10.1143/JPSJ.76.024603
Publication status	Published - Feb 2007
Externally published	Yes

Keywords

Correlated walk
Correlation factor
Split-〈110〉 interstitial
Tracer diffusion

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1143/JPSJ.76.024603

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abstract = "We study a simple model for the interstitialcy mechanism - one of the main mechanisms of the self-diffusion in crystalline solids. The diffusion coefficient depends on the interstitialcy concentration as well as the hopping rates of particles. We obtain an approximate expressions of the diffusion coefficient for various kinds of lattices by noting that the dynamics of an interstitialcy is identical with that of a particle in the vacancy assisted mechanism. These expressions are found to be consistent with our Monte Carlo simulation results for all the lattices examined as far as the interstitialcy-concentration is not too high.",

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AU - Okamoto, Ryuichi

AU - Uno, Yutaka

AU - Fujitani, Youhei

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N2 - We study a simple model for the interstitialcy mechanism - one of the main mechanisms of the self-diffusion in crystalline solids. The diffusion coefficient depends on the interstitialcy concentration as well as the hopping rates of particles. We obtain an approximate expressions of the diffusion coefficient for various kinds of lattices by noting that the dynamics of an interstitialcy is identical with that of a particle in the vacancy assisted mechanism. These expressions are found to be consistent with our Monte Carlo simulation results for all the lattices examined as far as the interstitialcy-concentration is not too high.

AB - We study a simple model for the interstitialcy mechanism - one of the main mechanisms of the self-diffusion in crystalline solids. The diffusion coefficient depends on the interstitialcy concentration as well as the hopping rates of particles. We obtain an approximate expressions of the diffusion coefficient for various kinds of lattices by noting that the dynamics of an interstitialcy is identical with that of a particle in the vacancy assisted mechanism. These expressions are found to be consistent with our Monte Carlo simulation results for all the lattices examined as far as the interstitialcy-concentration is not too high.

KW - Correlated walk

KW - Correlation factor

KW - Split-〈110〉 interstitial

KW - Tracer diffusion

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JF - journal of the physical society of japan

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Self-diffusion in a lattice via the interstitialcy mechanism

Abstract

Keywords

ASJC Scopus subject areas

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